A Structurally Characterized Fluoroalkyne

The AuI complex [Au{N(F)SO2Ph}(SPhos)] (SPhos=dicyclohexyl(2′,6′‐dimethoxy[1,1′‐biphenyl]‐2‐yl)phosphane) (2) bearing a fluoroamido ligand has been synthesized by reaction of the fluorido complex [Au(F)(SPhos)] (1) with NFSI (NFSI=N‐fluorobenzenesulfonimide). A reaction with CO resulted in an unprecedented insertion into the N−F bond at 2. With the carbene precursor N2CH(CO2Et) N−F bond cleavage gave the Au−F bond insertion product [Au{CHF(CO2C2H5)}(SPhos)] (7). The presence of CNtBu led to Au−N cleavage at 2 and concomitant amide formation to give the cationic complex [Au(CNtBu)(SPhos)][N(F)SO2Ph)] (5), which reacted further to give FtBu as well as the cyanido complex [Au(CN)(SPhos)] (6). These results led to the development of a process for the amination of electrophilic organic substrates by transfer of the fluoroamido group NF(SO2Ph)−.

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Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Rachor

Ahrens

Braun

2022

Angewandte Chemie

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Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

2022

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The Au I complex [Au{N(F)SO 2 Ph}(SPhos)] (SPhos = dicyclohexyl(2',6'-dimethoxy[1,1'-biphenyl]-2yl)phosphane) (2) bearing a fluoroamido ligand has been synthesized by reaction of the fluorido complex [Au(F)(SPhos)] (1) with NFSI (NFSI = N-fluorobenzenesulfonimide). A reaction with CO resulted in an unprecedented insertion into the NÀ F bond at 2. With the carbene precursor N 2 CH(CO 2 Et) NÀ F bond cleavage gave the AuÀ F bond insertion product [Au{CHF-(CO 2 C 2 H 5 )}(SPhos)] (7). The presence of CNtBu led to AuÀ N cleavage at 2 and concomitant amide formation to give the cationic complex [Au(CNtBu)(SPhos)][N-(F)SO 2 Ph)] ( 5), which reacted further to give FtBu as well as the cyanido complex [Au(CN)(SPhos)] ( 6). These results led to the development of a process for the amination of electrophilic organic substrates by transfer of the fluoroamido group NF(SO 2 Ph) À .

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Intermolecular Dehydrative Coupling and Intramolecular Cyclization of Ruthenium Vinylidene Complexes Formed from Aromatic Propynes Containing Carbonyl Functionalities

Chia

Kuo

Huang

et al. 2018

Chemistry An Asian Journal

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Ar emarkable intermolecular dehydrative coupling reaction with the formation of aC ÀCb ond was found for the vinylidenec omplex 2a,y ielding the dinuclear bisvinylidene complex 4a.C omplex 2a containing1 -hydroxyindan moiety wasf irst formed from the reactiono fo-propynyl benzaldehyde 1a with [Ru]-Cl ([Ru] = Cp(PPh 3 ) 2 Ru) by acyclization process. For analogousa ldehyde 1b containing an additional 1,3-dioxolane group on the aryl ring, similari ntermolecular coupling yields the dinuclear bisvinylidene complex 4b.H owever,t he fluoro group on the aryl ring in aldehyde 1c inhibits the coupling reaction, giving only the vinylidene complex 2c.F or the reactions of [Ru]-Cl in MeOH with compounds 1f, 1g and 1h,e ach with ak etone functionality, cyclization gives vinylidenec omplexes 2f,2 gand 2h,r e-spectively.H owever,n os imilari ntermolecular couplingw as observed, instead, the intramolecular dehydration yields 8f, 8g and 8h,r espectively.I nC DCl 3 ,c atalytic cyclization is observedf or the o-propynylphenyl ketone 1h with [Ru]-Cla t 50 8Cg iving the isochromene products 14 h.F urthermore, treatment of the o-propynylaryl a,b-unsaturatedk etones 1k-m and 1n with [Ru]-Cl in MeOH affords the corresponding vinylidene complexes 10 k-m and 11 n each with 1-benzosuberonem oiety in the presence of NH 4 PF 6 .T hese intramolecular cyclization products weref ormed by the addition of Cb onto the terminal carbon of the alkenem oiety.A ll these reactionp roducts were characterized by spectroscopic methods. In addition, structures of complexes 4a,a nd 10 l were confirmed by single crystal X-ray diffraction analysis.Scheme2.Reactions of two o-propynylaryl aldehydes.Scheme3.Proposed mechanism for the formation of 2a and subsequent transformation to 4a.Scheme4.Reactions of 1d and 1e with [Ru]-Cl.Scheme5.Reactions of o-propynylaryl ketone with no a,b-unsaturated olefin.Scheme6.Formation of isochromene 14 h andproposed mechanism.

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A Structurally Characterized Fluoroalkyne

Cited by 3 publications

References 29 publications

Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Intermolecular Dehydrative Coupling and Intramolecular Cyclization of Ruthenium Vinylidene Complexes Formed from Aromatic Propynes Containing Carbonyl Functionalities

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A Structurally Characterized Fluoroalkyne

Cited by 3 publications

References 29 publications

Conversion of a AuI Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a AuI Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a AuI Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Intermolecular Dehydrative Coupling and Intramolecular Cyclization of Ruthenium Vinylidene Complexes Formed from Aromatic Propynes Containing Carbonyl Functionalities

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Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity

Conversion of a Au^I Fluorido Complex into an N‐Fluoroamido Derivative: N−F versus Au−N Reactivity